What is NPRM?What is NPRM?
NNotice of otice of PProposed roposed RRule ule MMakingaking• ET Docket No. 07-113ET Docket No. 07-113
Created by the U.S. Congress under Administrative Created by the U.S. Congress under Administrative Procedure Act (APA)Procedure Act (APA)
Forces Federal agencies to listen to comments and Forces Federal agencies to listen to comments and concerns of institutions affected by the rulesconcerns of institutions affected by the rules
Comment phase duration is 90 days from the date Comment phase duration is 90 days from the date the NPRM appears in the Federal Registerthe NPRM appears in the Federal Register• NPRM posted in July 19 issue of Federal RegisterNPRM posted in July 19 issue of Federal Register
• Comments must be filed on or before October 17Comments must be filed on or before October 17
BackgroundBackground WCAI filed a petition to the FCC for rule making on WCAI filed a petition to the FCC for rule making on
September 30, 2004September 30, 2004
Presented [15-05-0054-00] at IEEE plenary in Presented [15-05-0054-00] at IEEE plenary in Monterey, CA, on January 17, 2005Monterey, CA, on January 17, 2005
Industry position to the petition filedIndustry position to the petition filed• Against: IEEE, SiBEAM, Rory Van Tuyl Against: IEEE, SiBEAM, Rory Van Tuyl
• For: WCAI, Bridgewave, Proxim, CGI, YipesFor: WCAI, Bridgewave, Proxim, CGI, Yipes
FCC just released NPRM (see 2007-097) for FCC just released NPRM (see 2007-097) for comments from the industrycomments from the industry
• Agreed to all of WCAI’s petitionAgreed to all of WCAI’s petition • Requires comments from the industry before final rules are Requires comments from the industry before final rules are
passedpassed
Format of PresentationFormat of Presentation
For each rule….For each rule….
1)1) Existing ruleExisting rule
2)2) Proposed rulesProposed rules
3)3) Comments requiredComments required
Rule # 1Rule # 1Existing Rules on Existing Rules on Emission LimitsEmission Limits
Current RulesCurrent Rules
Average power density ≤ 9 µW/cmAverage power density ≤ 9 µW/cm22 at 3 m at 3 m
Peak power density ≤ 18 µW/cmPeak power density ≤ 18 µW/cm22 at 3 m at 3 m
Peak power into antenna ≤ 500 mW (27 dBm)Peak power into antenna ≤ 500 mW (27 dBm)
ReasonReason
Prevent interference between unlicensed devicesPrevent interference between unlicensed devices
Put a limit on a device with low antenna gain (i.e. omni)Put a limit on a device with low antenna gain (i.e. omni)
→ → 40 dBm EIRP40 dBm EIRP
→ → 43 dBm EIRP43 dBm EIRP
Rule # 1Rule # 1Proposed Rules on Proposed Rules on Emission LimitsEmission Limits
Proposed RulesProposed Rules
Average EIRP to “82 dBm less 2 dB for every dB that the systems’ Average EIRP to “82 dBm less 2 dB for every dB that the systems’ antenna gain is below 51dBi”antenna gain is below 51dBi”
Peak EIRP to “ 85 dBm less 2 dB for every dB that the systems’ Peak EIRP to “ 85 dBm less 2 dB for every dB that the systems’ antenna gain is below 51 dBi”antenna gain is below 51 dBi”
Applicable for high gain outdoor or window linkApplicable for high gain outdoor or window link
ReasonReason
High gain antenna reduces probability of low power omni directional High gain antenna reduces probability of low power omni directional system located within its beamsystem located within its beam
Emissions from high gain outdoor system attenuated by obstacles Emissions from high gain outdoor system attenuated by obstacles to affect indoor low gain systemto affect indoor low gain system
OO22 and H and H22O vapor further reduces emissions of outdoor systemO vapor further reduces emissions of outdoor system
Rule # 1Rule # 1Comments on Comments on Emission LimitsEmission Limits
Comment on ….Comment on ….
modifying the emission limit for very high gain antennamodifying the emission limit for very high gain antenna
interference concerns along with methods that may be suitable for interference concerns along with methods that may be suitable for mitigating such concernsmitigating such concerns
feasibility of using extremely high gain antenna (≥ 51 dBi)feasibility of using extremely high gain antenna (≥ 51 dBi)
Rule # 2Rule # 2Existing Rules on Existing Rules on Emission Limits in EIRPEmission Limits in EIRP
Current RulesCurrent Rules
Average and peak power density specified in µW/cmAverage and peak power density specified in µW/cm22 at 3 m at 3 m
ReasonReason
Prevent interference between unlicensed devicesPrevent interference between unlicensed devices
Put a cap on a device with low antenna gain (i.e. omni)Put a cap on a device with low antenna gain (i.e. omni)
Rule # 2Rule # 2Proposed Rules on Proposed Rules on Emission Limits in EIRPEmission Limits in EIRP
Proposed RulesProposed Rules
Change specifications from Change specifications from µW/cmµW/cm22 at 3 m at 3 m to EIRP for high gain to EIRP for high gain antennaantenna
Existing rules apply for low gain antennaExisting rules apply for low gain antenna
ReasonReason
3 m is in near field for high gain antenna and, thus, “difficulty in 3 m is in near field for high gain antenna and, thus, “difficulty in obtaining accurate power density measurement”obtaining accurate power density measurement”
Far field power density extrapolated to 3 m “may not approximate Far field power density extrapolated to 3 m “may not approximate the actual power density at 3 m”the actual power density at 3 m”
Rule # 2Rule # 2Comments on Comments on Emission Limits in EIRPEmission Limits in EIRP
Comment on …..Comment on …..
amount of antenna gain above which use of the EIRP limits would amount of antenna gain above which use of the EIRP limits would be mandatorybe mandatory
an alternative (i.e. ERP) to existing power density standardsan alternative (i.e. ERP) to existing power density standards
deleting power density in favor of EIRPdeleting power density in favor of EIRP
Rule # 3Rule # 3Existing Rules on Existing Rules on Antenna SubstituteAntenna Substitute
Current RulesCurrent Rules
Part 15.255 makes no reference to section 15.204(c)(4)Part 15.255 makes no reference to section 15.204(c)(4)
15.204(c)(4) allows “intentional radiators marketed and used with 15.204(c)(4) allows “intentional radiators marketed and used with any antenna that is of the same type and of equal or less directional any antenna that is of the same type and of equal or less directional gain as the antenna authorized with the equipment” gain as the antenna authorized with the equipment”
Part 15 can have broad interpretationPart 15 can have broad interpretation
ReasonReason (example) (example)11
Aperture ø, cm Aperture ø, cm [inch][inch] 31 [12.2]31 [12.2] 23 [9.1]23 [9.1]
22 Antenna gain, dBiAntenna gain, dBi 42.942.9 40.340.3
33 HPBW, degreesHPBW, degrees 1.21.2 1.61.6
44 EIRP, dBmEIRP, dBm 48.248.2 43.543.5
55 Maximum PMaximum PININ, dBm, dBm 5.35.3 3.23.2
66 RRNFNF, cm, cm 484.5484.5 266.7266.7
77 RRFFFF, cm, cm 1162.81162.8 640.1640.1
As per existing As per existing Part 15.255 rulesPart 15.255 rules
Rule # 3Rule # 3Proposed Rules on Proposed Rules on Antenna SubstituteAntenna Substitute
Proposed RulesProposed Rules
15.204(c)(4) will not apply to “60 GHz transmission systems 15.204(c)(4) will not apply to “60 GHz transmission systems operating under the proposed higher EIRP limits” operating under the proposed higher EIRP limits”
ReasonReason
3 m is in near field for high gain antenna and, thus, “difficulty in 3 m is in near field for high gain antenna and, thus, “difficulty in obtaining accurate power density measurement”obtaining accurate power density measurement”
Far field power density extrapolated to 3 m “may not approximate Far field power density extrapolated to 3 m “may not approximate the actual power density at 3 m”the actual power density at 3 m”
Rule # 3Rule # 3Comments on Comments on Antenna SubstituteAntenna Substitute
Comment on FCC proposed rule Comment on FCC proposed rule
Rule # 4Rule # 4Existing Rules on Existing Rules on Transmitter IDTransmitter ID
Current RulesCurrent Rules
Applies only to emissions originating from inside a building, not Applies only to emissions originating from inside a building, not outside a buildingoutside a building
““Within any one second interval of signal transmission, each Within any one second interval of signal transmission, each transmitter with a peak output power equal to or greater than 0.1 transmitter with a peak output power equal to or greater than 0.1 mW or a peak power density equal to or greater than 3 nW/cmmW or a peak power density equal to or greater than 3 nW/cm22, as , as measured 3 meters from the radiating structure, must transmit a measured 3 meters from the radiating structure, must transmit a transmitter identification at least once”transmitter identification at least once”
“…“….which shall be field programmable”.which shall be field programmable”
ReasonReason
A mechanism to identify an interfererA mechanism to identify an interferer
Rule # 4Rule # 4Proposed Rules on Proposed Rules on Transmitter IDTransmitter ID
Proposed RulesProposed Rules
Transmitter ID not required from window link Transmitter ID not required from window link
ReasonReason
“…“…reflected from the glass in a window link will be attenuated by the reflected from the glass in a window link will be attenuated by the walls and other surrounding objects…”walls and other surrounding objects…”
““In most cases, all equipment within the same room will be under In most cases, all equipment within the same room will be under the control of the same user”the control of the same user”
Rule # 4Rule # 4Comments on Comments on Transmitter IDTransmitter ID
Comment on ..Comment on ..
the proposed rulethe proposed rule
eliminating transmitter ID completelyeliminating transmitter ID completely
[Abbie’s] Thoughts[Abbie’s] Thoughts## Proposed RuleProposed Rule PositionPosition
11 Emission LimitsEmission Limits
Concerned of window links - should abide Concerned of window links - should abide by indoor low power deviceby indoor low power device
Concerned of high power outdoor link in Concerned of high power outdoor link in close proximity to low power indoor device close proximity to low power indoor device
22Emission Limits in Emission Limits in EIRPEIRP
Agree with FCC - migrate from power Agree with FCC - migrate from power density to EIRPdensity to EIRP
Need to understand implicationNeed to understand implication
33 Antenna SubstituteAntenna Substitute Agree with FCCAgree with FCC
44Need for Transmitter Need for Transmitter IDID
Remove transmitter ID completelyRemove transmitter ID completely Standards addressing this through Standards addressing this through
provisions to handle interferenceprovisions to handle interference
Back UpBack Up
Near & Far Field as Per FCCNear & Far Field as Per FCC
Aperture Aperture , , cmcm ~ Gain, dBi~ Gain, dBi ~ ~ ӨӨ3dB3dB Near Field, cmNear Field, cm Far Field, cmFar Field, cm
22 19.019.0 18.3º18.3º 2.02.0 4.84.8
77 29.929.9 5.2º5.2º 24.724.7 59.359.3
88 31.131.1 4.6º4.6º 32.332.3 77.477.4
1515 36.536.5 2.4º2.4º 113.4113.4 272.3272.3
1616 37.137.1 2.3º2.3º 129.1129.1 309.8309.8
2424 40.640.6 1.5º1.5º 290.4290.4 697.0697.0
2525 41.041.0 1.5º1.5º 315.1315.1 756.3756.3
6161 48.748.7 0.6º0.6º 1,876.01,876.0 4,502.44,502.4
RNF = D2/4 RFF = 0.6 D2/
Transition RegionTransition Region
Frequency = 60.5 GHz, Aperture Efficiency = 50%Frequency = 60.5 GHz, Aperture Efficiency = 50%
Far FieldFar FieldNear Near FieldField
Far Field and Gain PlotsFar Field and Gain Plots
0
50
100
150
200
250
300
350
400
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
Aperture Diameter, cm
Fa
r F
ield
, cm
10
15
20
25
30
35
40
Ga
in, d
Bi
Far Field
Gain , dBi
15.7 cm